Quality of the thermodynamic uncertainty relation for fast and slow driving

Koyuk, Timur; Seifert, Udo

doi:10.1088/1751-8121/ac231f

Cited by 7 publications

(2 citation statements)

References 89 publications

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“…In small quantum engines fluctuations become important [90,279,351,390,420], diverging fluctuations make the device useless. Actively controlling fluctuations comes at the expense of either efficiency or power.…”

Section: Quantum Thermodynamicsmentioning

confidence: 99%

Quantum optimal control in quantum technologies. Strategic report on current status, visions and goals for research in Europe

Koch

Boscain

Calarco

et al. 2022

EPJ Quantum Technol.

213

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Quantum optimal control, a toolbox for devising and implementing the shapes of external fields that accomplish given tasks in the operation of a quantum device in the best way possible, has evolved into one of the cornerstones for enabling quantum technologies. The last few years have seen a rapid evolution and expansion of the field. We review here recent progress in our understanding of the controllability of open quantum systems and in the development and application of quantum control techniques to quantum technologies. We also address key challenges and sketch a roadmap for future developments.

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Section: Quantum Thermodynamicsmentioning

confidence: 99%

Quantum optimal control in quantum technologies. Strategic report on current status, visions and goals for research in Europe

Koch

Boscain

Calarco

et al. 2022

EPJ Quantum Technol.

213

View full text Add to dashboard Cite

show abstract

“…In small quantum engines fluctuations become important [87,275,347,385,385,416], diverging fluctuations make the device useless. Actively controlling fluctuations comes at the expense of either efficiency or power.…”

Section: Quantum Thermodynamicsmentioning

confidence: 99%

Quantum optimal control in quantum technologies. Strategic report on current status, visions and goals for research in Europe

Koch,

Boscain,

Calarco

et al. 2022

Preprint

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Optimal Thermodynamic Uncertainty Relation in Markov Jump Processes

Shiraishi

2021

J Stat Phys

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The role of the Wasserstein distance in the thermodynamic speed limit inequalities for Markov jump processes is investigated. We elucidate the nature of the Wasserstein distance in the thermodynamic speed limit inequality from three different perspectives with resolving three remaining problems. In the first part, we derive a unified speed limit inequality for a general weighted graph, which reproduces both the conventional speed limit inequality and the trade-off relation between current and entropy production as its special case. In the second part, we treat the setting where the tightest bound with the Wasserstein distance has not yet been obtained and investigate why such a bound is out of reach. In the third part, we compare the speed limit inequalities for Markov jump processes with L 1 -Wasserstein distance and for overdamped Langevin systems with L 2 -Wasserstein distance, and argue that these two have different origins despite their apparent similarity.4.4 Why Wasserstein distance and Hatano-Sasa entropy production do not meet? .

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Quality of the thermodynamic uncertainty relation for fast and slow driving

Cited by 7 publications

References 89 publications

Quantum optimal control in quantum technologies. Strategic report on current status, visions and goals for research in Europe

Quantum optimal control in quantum technologies. Strategic report on current status, visions and goals for research in Europe

Quantum optimal control in quantum technologies. Strategic report on current status, visions and goals for research in Europe

Optimal Thermodynamic Uncertainty Relation in Markov Jump Processes

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